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E. Ziegel (2002)
Generalized Linear ModelsTechnometrics, 44
L. Squires, A. Valk (1992)
Water-depth tolerances of the dominant emergent macrophytes of the Delta Marsh, ManitobaBotany, 70
M. Burke, J. Grime (1996)
An Experimental Study of Plant Community InvasibilityEcology, 77
C. M. Breen, K. H. Rogers, P. J. Ashton (1988)
Vegetation of Inland Waters Handbook of Vegetation Science 15/1
T. Setter, M. Ellis, E. Laureles, E. Ella, D. Senadhira, S. Mishra, S. Sarkarung, S. Datta (1997)
Physiology and Genetics of Submergence Tolerance in RiceAnnals of Botany, 79
P. Vervuren, C. Blom, H. Kroon (2003)
Extreme flooding events on the Rhine and the survival and distribution of riparian plant speciesJournal of Ecology, 91
A. Sman, N. Joosten, C. Blom (1993)
Flooding regimes and life-history characteristics of short-lived species in river forelandsJournal of Ecology, 81
W. Eck, H. Steeg, C. Blom, Johan Kroon (2004)
Is tolerance to summer flooding correlated with distribution patterns in river floodplains? A comparative study of 20 terrestrial grassland speciesOikos, 107
O. Pedersen, J. Borum, C. Duarte, M. Fortes (1998)
Oxygen dynamics in the rhizosphere of Cymodocea rotundataMarine Ecology Progress Series, 169
S. Jongruaysup, B. Dell, R. Bell, G. O’Hara, J. Bradley (1997)
Effect of molybdenum and inorganic nitrogen on molybdenum redistribution in black gram (Vigna mungoL. Hepper) with particular reference to seed fillAnnals of Botany, 79
M. Carter, J. Grace (1990)
RELATIONSHIPS BETWEEN FLOODING TOLERANCE, LIFE HISTORY, AND SHORT‐TERM COMPETITIVE PERFORMANCE IN THREE SPECIES OF POLYGONUMAmerican Journal of Botany, 77
S. Collins, S. Glenn, D. Gibson (1995)
Experimental Analysis of Intermediate Disturbance and Initial Floristic Composition: Decoupling Cause and EffectEcology, 76
L. Mommer, H. Kroon, R. Pierik, G. Bögemann, E. Visser (2005)
A functional comparison of acclimation to shade and submergence in two terrestrial plant species.The New phytologist, 167 1
W. Eck, J. Lenssen, Ramses Rengelink, C. Blom, Johan Kroon (2005)
Water temperature instead of acclimation stage and oxygen concentration determines responses to winter floodsAquatic Botany, 81
R. Crawford (2003)
Seasonal differences in plant responses to flooding and anoxiaBotany, 81
C. Nilsson, Maria Gardfjell, Gunnel Grelsson (1991)
Importance of hydrochory in structuring plant communities along rivers
P. Laan, C. Blom (1990)
Growth and Survival Responses of Rumex Species to Flooded and Submerged Conditions: The Importance of Shoot Elongation, Underwater Photosynthesis and Reserve CarbohydratesJournal of Experimental Botany, 41
W.H.J.M. Eck, H. Steeg, Cornelis Blom, J.C.J.M. Kroon (2005)
Recruitment limitation along disturbance gradients in river floodplains, 16
J. Klimešová (1994)
The effects of timing and duration of floods on growth of yound plants of Phalaris arundinacea L. and Urtica dioica L.: an experimental studyAquatic Botany, 48
J. He, G. Bögemann, H. Steeg, J. Rijnders, L. Voesenek, C. Blom (1999)
Survival tactics of Ranunculus species in river floodplainsOecologia, 118
Christophe Henry, C. Amoros, G. Bornette (2004)
Species traits and recolonization processes after flood disturbances in riverine macrophytesVegetatio, 122
K. Sykora, E. Scheper, F. Zee (1988)
Inundation and the distribution of plant communities on Dutch river dikes, 37
K. Studer-Ehrensberger, C. Studer, R. Crawford (1993)
Competition at community boundaries: mechanisms of vegetation structure in a dune-slack complexFunctional Ecology, 7
P. Vervuren, S. Beurskens, C. Blom (1999)
Light acclimation, CO2 response and long‐term capacity of underwater photosynthesis in three terrestrial plant speciesPlant Cell and Environment, 22
R. Day, P. Keddy, J. McNeill, T. Carleton (1988)
FERTILITY AND DISTURBANCE GRADIENTS: A SUMMARY MODEL FOR RIVERINE MARSH VEGETATION'Ecology, 69
K. Sand‐Jensen, H. Frost-Christensen (1999)
Plant growth and photosynthesis in the transition zone between land and streamAquatic Botany, 63
H. Siebel (1998)
Floodplain forest restoration: tree seedling establishment and tall herb interference in relation to flooding and shading
C. Breen, K. Rogers, P. Ashton (1988)
Vegetation Processes in Swamps and Flooded Plains
Robert Crawford, C. Jeffree, W. Rees (2003)
Paludification and forest retreat in northern oceanic environments.Annals of botany, 91 Spec No
J. Lenssen, Johan Kroon (2005)
Abiotic constraints at the upper boundaries of two Rumex species on a freshwater flooding gradientJournal of Ecology, 93
C. Johnson, P. Stout, T. Broyer, A. Carlton (1957)
Comparative chlorine requirements of different plant speciesPlant and Soil, 8
R. Nabben (2001)
Metabolic adaptations to flooding-induced oxygen deficiency and post-anoxia stress in Rumex species
Past research has provided compelling evidence that variation in flooding duration is the predominant factor underlying plant species distribution along elevation gradients in river floodplains. The role of seasonal variation in flooding, however, is far from clear. We addressed this seasonal effect for 10 grassland species by testing the hypothesis that all species can survive longer when flooded in winter than when flooded in summer. We carried out an inundation experiment under simulated conditions of summer and winter flooding in the greenhouse. The results showed that all species survived longer under winter floods than under summer floods. However, responses upon flooding were species-specific. All summer flood-tolerant species had high tolerance for winter floods as well, but summer flood sensitive species survived either a little longer, or dramatically longer when flooded under simulated winter conditions. Next, we examined whether winter or summer survival best predicted the lower distribution limits of the species as measured in a natural flooding gradient after an extremely long winter flood. We found a strong significant relationship between the lower distribution limits of species in the field and their tolerance to summer floods, although we measured the lower limits 14 years after the latest major summer flood. In contrast, no such significant relationship existed with species tolerance to winter floods. Some relatively intolerant species occurred at much higher floodplain elevations as was expected from their tolerance to winter inundation in the experiments. This suggests that zonation patterns as created by occasional summer floods may be maintained for a long time, probably due to the limited ability of species to re-colonise lower positions in the floodplain.
Hydrobiologia – Springer Journals
Published: Dec 24, 2005
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